Electrode clamping system for sink-type electrical discharge machines

ABSTRACT

The electrode clamping system for an EDM-sinking machine according to the present invention includes an electrode clamping holder of adjustable size and a dielectric flow control circuit. The system enables flushing both sides of the electrode through the adjustable holder.  
     A basic version of the apparatus includes the electrode holder and a two-sided dielectric supply, with a basic part ( 1 ), where a dielectric supply channel ( 2 ) splits; a fixed part ( 3 ) of the holder with a supply channel ( 2 ′), of a chamber ( 4 ) with a nozzle ( 5 ); and a flexible part ( 6 ) with a supply channel ( 2 ″), of the chamber ( 4 ′) with the nozzle ( 5 ), and of a button ( 7 ), which allows for the movement of the flexible part ( 5 ) i.e. electrode clamping.

FIELD OF THE INVENTION

[0001] This invention relates to an electrode clamping system or a sink-type or “sinking” electrical discharge machine (EDM) for machining parts.

[0002] 1. Background of the Invention

[0003] EDM's are used to machine or process a wide variety of parts or workpieces in a number of ways, such as by cutting, forging, injection molding engraving, and polishing, all involving the use of electrical discharges and a dielectric fluid. EDM's of the sink-type, also known as “sinking“ EDM's have a sink or well, in which a workpiece to be processed is lowered while it is electrically connected to least one electrode. A dielectric fluid is injected into the electrodes during electrical discharge treatment of the workpiece, such that the dielectric fluid flushes the surface of the workpiece during treatment, in order to remove particles of the workpiece that are cut or machined from the surface of the workpiece during electrical discharge treatment and which would cause contamination of the surface of the workpiece preventing further fine polishing of the surface if allowed to remain on the surface of the workpiece with the dielectric fluid containing the flushed-away contaminating particles then being collected in the sink.

[0004] Holders for clamping electrodes, which are attached to the workpiece during electrical discharge treatment of the workpiece, for sink type EDM's, such as, for example, clamp model numbers 3R-6,51.13, and 3R-658.2E, together with model number 3R-651E-LS, both produced by 3R Company of Sweden, are known in the art, however they do not enable a dielectric fluid supply to flow through them to the electrodes.

[0005] Other holders, in which the clamping of electrodes is possible, such as, for example, clamp model number 3R-608,32, in combination with model number 311-601.3, both also produced by 3R Company of Sweden, enable the supply of a dielectric fluid to the electrode through an outer flexible flushing tube, such as model number 3R-103, which is attached to the holder, but does not lead through it. There, the flushing tube must be manually adjusted for every electrode in order to insure that the dielectric fluid flow is in the desired direction. Unfortunately, the flexible tube cannot always be properly positioned due to there being only limited space between the clamping system and the part being machined.

SUMMARY OF THE INVENTION

[0006] The electrode clamping system for a sink-type EDM according to the present invention includes an adjustable holder for clamping electrodes of different or adjustable sizes, and a dielectric fluid flow control system. The flow control system provides for lateral flushing of the workpiece with the dielectric fluid, which flows through the adjustable holder.

[0007] The construction of the electrode clamping system for a sink-type EDM according to the present invention includes the holder and the control circuit, wherein the holder enables simple clamping of the electrodes and the supply of the dielectric fluid into at least one nozzle, thereby allowing for direction and control of the dielectric fluid flow into a space or slot between the electrode and the workpiece being processed. The supply of the dielectric fluid to the sink-type EDM is enabled by positioning the holder on a head of the EDM and its automatic operation is enabled by mounting the clamping system on the machine head.

[0008] The system of the present invention successfully overcomes several technical problems that existed in the state of the art, including those of how to achieve the clamping of electrodes of different or adjustable sizes and how to supply the dielectric fluid for flushing away the contamination particles, produced by the EDM-sinking process, from the gap or slot that exists between the electrode and the workpieve, especially in the case of narrow and/or deep slots.

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] A description of the electrode clamping system for a sink-type EDM according to the present invention is presented in detail in the following, in conjunction with reference to the following drawing figures, wherein:

[0010]FIG. 1 shows an overall view of one embodiment of the holder according to the present invention, with a sectional view of the dielectric fluid supply.

[0011]FIG. 2 schematically shows the holder according to FIG. 1, in plan view, as seen from below, in an embodiment utilizing a round-shaped dielectric fluid nozzle.

[0012]FIG. 3 schematically shows the holder according to FIG. 1, in plain view, as seen from below, in an embodiment utilizing a rectangular-shaped dielectric fluid nozzle.

[0013]FIG. 4 schematically shows a clamping system according to the present invention, in plan view, as seen from below, and including a multi-nozzled chamber for laterally flushing the workpiece with dielectric fluid.

[0014]FIG. 5 schematically shows the clamping system according to the present invention, in plan view, as seen from below, and including a multi-nozzled chamber and an additional chamber in the electrode, for laterally flushing the workpiece with dielectric fluid.

[0015]FIG. 6 schematically shows the control circuit for controlling the supply of the dielectric fluid to the holder of the electrode clamping system, according to the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION

[0016] The electrode clamping system for a sink-type EDM according to the present invention enables the automatic, symmetrical supply of the dielectric fluid from at least two sides of the electrode, through the chambers and nozzles without the need for any intervention by an EDM operator.

[0017] The electrode clamping system according to the present invention, as shown in FIG. 1, enables clamping of the electrodes of different or adjustable sizes. The holder consists of a basic part 1, where the dielectric fluid feed pipe 2 splits; a holder fixed part 3, including the dielectric fluid supply channel 2′, a chamber 4, and a nozzle 5; and a flexible part 6, including a dielectric fluid supply channel 2″, a chamber 4, a nozzle 51, and a button 7, which actuates movement of the flexible part 5 to effect electrode clamping.

[0018] According to the present invention, the dielectric fluid supply channels 2, 2′, 2″ lead through the holder in such a way as to enable delivery of the dielectric fluid supply through a chuck in the head of the machine, and into the chamber on the fixed part 3 and flexible part 5 of the holder, even when a width of a jet of the dielectric fluid is narrower than the electrode width.

[0019]FIG. 2 shows the holder according to the present invention in plan view, as seen from below, in an embodiment utilizing round dielectric fluid nozzles 5, 5″.

[0020]FIG. 3 shows the holder according to the present invention in plan view, as seen from below, in an embodiment utilizing rectangular dielectric fluid nozzles.

[0021] The choice of the particular dielectric fluid nozzle shape depends on the electrode shape and is chosen so as to enable the dielectric fluid supply to flow through the holder at a maximum. possible flow velocity from both sides of the electrode.

[0022]FIG. 4 shows the clamping system according to the present invention, in plan view, as seen from below and in cross-section.

[0023] The chamber 9 in the clamping system 8 is closed by the plate 10 with channels 10″ that also continue through the electrode 11 as channels 11′, such as fixed to the plate 10. The dielectric fluid flow enters the chamber 9 and passes through the channels 10′ and 11′ as far as the nozzles 12. Such positioning of the nozzles allows for the maximum possible effect of lateral flushing with the dielectric fluid.

[0024]FIG. 5 shows the clamping system according to the present invention, in plan view, as seen from below, and in cross-section. In the clamping system 13, the chamber 14 is closed by the plate 15, with a central channel 15′ being connected to an additional chamber 16 of the electrode 17. The additional chamber 16 is connected to the nozzles 18 through the channel 17′ in the electrode 17. Accordingly, the dielectric fluid flows through the chamber 16, through the central channel 15′, through the additional chamber 16 and channels 17′ to the nozzles 18, which are also mounted so as to provide for maximum possible effect of lateral flushing with the dielectric fluid.

[0025] The control circuit 4 consists of an automatic control part 19, with a corresponding amplifier, and, in one embodiment, a control pump 20, and, in an alternative embodiment, electromagnetic valves 21, 22. The pressure and flowrate of the dielectric fluid are controlled by the automatic control circuit 19, the dielectric fluid flow being determined by the concentration of contamination particles in the gap 23 between the electrode and the part being machined, and regulated alternatively by the control pump 20 in the aforesaid first embodiment, and by the electromagnetic valves 21, 22 in the aforesaid second embodiment. In this way the use different dielectric fluid flowrates is enabled, with the flowrate being adjustable depending on a number of parameters, such as, for example, the machining depth to which the workpiece is being machined by the EDM. Both of the foregoing embodiments are shown in FIG. 4.

[0026] The EDM is capable of machining or polishing the workpiece to a number of different degrees of coarseness, from rough to fine, The level of polishing can be adjusted during the course of treatment. The amount of dielectric fluid utilized varies according to the level of polishing. At a transition from rough to fine machining by means of the introduction of orbital movement of the electrodes, the dielectric fluid flow generally must be reduced. Excessive dielectric fluid flow causes electrode vibration and overall instability of the EDM. For this reason, at the time of transition from rough to fine machining, the control system 4 automatically reduces the dielectric fluid flow to a level where electrode vibrations caused by too high a dielectric fluid supply cease.

[0027] Utilization of the electrode clamping system for a sinking EDM according to the present invention, with an electrode holder and a two-sided, symmetrical supply of dielectric fluid to the EDM enables machining times to be reduced by 50%, as compared to machining without flushing of contamination particles from the surface of the workpiece using a dielectric fluid. 

What is claimed is:
 1. An electrode clamping system for a sinking electrical discharge machine (EDM), the system comprising an adjustable holder for holding a clamping electrodes, and including up to a plurality of chambers for supplying dielectric fluid, with each chamber feeding into and terminating in a corresponding nozzle, which directs a flow of the dielectric fluid laterally into a gap between the electrodes and a workpiece.
 2. The electrode clamping system for a sinking EDM according to claim 1, wherein there are two chambers (4, 4′) that are symmetrical side chambers, which terminate at respective nozzles (5,5′), and wherein the dielectric fluid supply flows through the holder at a maximum possible velocity into the gap between the electrodes and the workpiece from both sides of the electrode.
 3. The electrode clamping system for a sinking EDM according to claim 2, wherein the holder includes: a.) a basic part (1), in which a dielectric fluid supply channel (2) therethrough splits; b.) a fixed part (3), with a dielectric fluid supply channel (2′), and a chamber (4) with a nozzle (5); c.) and a flexible part (6), with a dielectric fluid supply channel (2″), a chamber (4) with a nozzle (6), and a button (7) for actuating movement of flexible part (5) for electrode clamping.
 4. The electrode clamping system for a sinking EDM according to claim 3, wherein the nozzles (5, 6) have a shape and outlet opening selected from the group consisting of round and rectangular.
 5. The electrode clamping system for a sinking EDM according to claim 1, wherein a chamber (9) in the holder (8) is closed by a plate (10) with channels (10′) that also continue through the electrode (11) as channels (11′), such as fixed to the plate (10), and wherein. the dielectric fluid flow enters the chamber (9) and passes through the channels (10′) and (11′) as far as the nozzles (12).
 6. The electrode clamping system for a sinking EDM according to claim 1, wherein a chamber (14) in the holder (13) is closed by a plate (15), provided with a central channel (16), whereby the chamber (14) is connected with an additional chamber (16) in the electrode (17), that is also provided with channels (17), terminating in nozzles (18).
 7. The electrode clamping system for a sinking EDM according to claim 6, wherein the dielectric pressure and flow are controlled by the automatic control circuit, the dielectric flow being controlled with reference to a contamination particle concentration in the gap between the electrode and a part being machined.
 8. The electrode clamping system for a sinking EDM according to claim 7, wherein when a transition from rough to fine machining is made by the machine, the control circuit automatically reduces the dielectric flow to a value such that electrode vibrations caused by the dielectric supply cease. 